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X-rays film inside live flying insects -- in 3-D

Date:

March 25, 2014

Source:

PLOS

Summary:

Scientists have used a particle accelerator to obtain high-speed 3-D x-ray visualizations of flight muscles in flies. The team developed a CT scanning technique to allow them to film inside live flying insects.

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Credit: 2014 Walker et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Scientists have used a particle accelerator to obtain high-speed 3D X-ray visualizations of the flight muscles of flies. The team from Oxford University, Imperial College, and the Paul Scherrer Institute (PSI) developed a groundbreaking new CT scanning technique at the PSI's Swiss Light Source to allow them to film inside live flying insects. Their article, including 3D movies of the blowfly flight motorpublished March 25 in the open access journal PLOS Biology. The movies offer a glimpse into the inner workings of one of nature's most complex mechanisms, showing that structural deformations are the key to understanding how a fly controls its wingbeat.

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In the time that it takes a human to blink, a blowfly can beat its wings 50 times, controlling each wingbeat using numerous tiny steering muscles -- some as thin as a human hair. The membranous wings contain no muscles, so all of the flight muscles are hidden out of sight within the thorax. "The thoracic tissues block visible light, but can be penetrated by X-rays," says Dr. Rajmund Mokso from PSI. "By spinning the flies around in the dedicated fast-imaging experimental setup at the Swiss Light Source, we recorded radiographs at such a high speed that the flight muscles could be viewed from multiple angles at all phases of the wingbeat. We combined these images into 3D visualizations of the flight muscles as they oscillated back and forth 150 times per second."

The flies responded to being spun around by trying to turn in the opposite direction, allowing the scientists to record the asymmetric muscle movements associated with turning flight. "The steering muscles make up less than 3% of a fly's total flight muscle mass," says Prof. Graham Taylor who led the study in Oxford, "so a key question has been how the steering muscles can modulate the output of the much larger power muscles. The power muscles operate symmetrically, but by shifting each wing's mechanism between different modes of oscillation, the fly can divert power into a steering muscle specialized to absorb mechanical energy -- rather like using the gears of a car for braking."

The scientists hope to use their results to inform the design of new micromechanical devices. "Flies have solved a problem faced by engineers working on the same scale" says Prof. Taylor: "How to produce large, complex, three-dimensional motions, using actuators that only generate small, simple, one-dimensional ones?" The clever design of the blowfly flight motor solves that problem admirably, as the results of this study show. Dr. Simon Walker from Oxford, who was joint first author of the study with Daniel Schwyn, adds: "The fly's wing hinge is probably the most complex joint in nature, and is the product of more than 300 million years of evolutionary refinement. The result is a mechanism that differs dramatically from conventional humanmade designs; built to bend and flex rather than to run like clockwork."

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